package com.boesch.electroOffice.model.electroOffice;

import java.io.Serializable;

public class MeasurementEntry extends AbstractModel implements Serializable {

	private static final long serialVersionUID = 4627592449028085673L;

	private String currentCircuitNumber; //Stromkreis Nummer
	private String description; //Beschreibung für Ort, Anlageteil, Schaltgeräte Kombination
	private String conductorCrossSection; //Art, Leiterquerschnitt, Leiteranzahl
	private String characteristic; //Art, Charakteristik
	private String ratedCurrent; //Nennstrom in Ampere 
	private String peConductibility; //PE Leitfähigkeit
	private String shortCircuitCurrent; //Kurzschlussstrom in Ampere
	private String insulatingResistance; //Isolationswiderstand in MOhm
	private String fiRatedCurrent; //Fehlerstrom-Schutzschalter Nennstrom
	private String fiReleaseCurrent; //Fehlerstrom-Schutzschalter Auslösestrom in mA
	private String fiTimeInMillis; //Fehlerstrom-Schutzschalter Auslösezeit in Millisekunden
	private boolean insulatingResistanceIsBigger999; //Isolationswiederstand ist grösser 99,9 MOhm
	private boolean rotatingFieldClockwise; //Drehfeld geprüft (Drehfeld rechts)

	public String getCurrentCircuitNumber() {
		return currentCircuitNumber;
	}

	public void setCurrentCircuitNumber(String currentCircuitNumber) {
		this.currentCircuitNumber = currentCircuitNumber;
	}

	public String getDescription() {
		return description;
	}

	public void setDescription(String description) {
		this.description = description;
	}

	public String getConductorCrossSection() {
		return conductorCrossSection;
	}

	public void setConductorCrossSection(String conductorCrossSection) {
		this.conductorCrossSection = conductorCrossSection;
	}

	public String getCharacteristic() {
		return characteristic;
	}

	public void setCharacteristic(String characteristic) {
		this.characteristic = characteristic;
	}

	public String getRatedCurrent() {
		return ratedCurrent;
	}

	public void setRatedCurrent(String ratedCurrent) {
		this.ratedCurrent = ratedCurrent;
	}

	public String getPeConductibility() {
		return peConductibility;
	}

	public void setPeConductibility(String peConductibility) {
		this.peConductibility = peConductibility;
	}

	public String getShortCircuitCurrent() {
		return shortCircuitCurrent;
	}

	public void setShortCircuitCurrent(String shortCircuitCurrent) {
		this.shortCircuitCurrent = shortCircuitCurrent;
	}

	public String getInsulatingResistance() {
		return insulatingResistance;
	}

	public void setInsulatingResistance(String insulatingResistance) {
		this.insulatingResistance = insulatingResistance;
	}

	public String getFiRatedCurrent() {
		return fiRatedCurrent;
	}

	public void setFiRatedCurrent(String fiRatedCurrent) {
		this.fiRatedCurrent = fiRatedCurrent;
	}

	public String getFiReleaseCurrent() {
		return fiReleaseCurrent;
	}

	public void setFiReleaseCurrent(String fiReleaseCurrent) {
		this.fiReleaseCurrent = fiReleaseCurrent;
	}

	public String getFiTimeInMillis() {
		return fiTimeInMillis;
	}

	public void setFiTimeInMillis(String fiTimeInMillis) {
		this.fiTimeInMillis = fiTimeInMillis;
	}

	public boolean isInsulatingResistanceIsBigger999() {
		return insulatingResistanceIsBigger999;
	}

	public void setInsulatingResistanceIsBigger999(boolean insulatingResistanceIsBigger999) {
		this.insulatingResistanceIsBigger999 = insulatingResistanceIsBigger999;
	}

	public boolean isRotatingFieldClockwise() {
		return rotatingFieldClockwise;
	}

	public void setRotatingFieldClockwise(boolean rotatingFieldClockwise) {
		this.rotatingFieldClockwise = rotatingFieldClockwise;
	}
}
